JP5885225B2 - Processing method of fruit or juice - Google Patents

Description

  The present invention relates to a method for obtaining polyphenols and beverages from fruits or fruit juices.

  For example, as disclosed in Patent Document 1, a technique for obtaining polyphenol powder from immature apple juice using a synthetic adsorption resin is known. Moreover, crushing and compressing, adding sulfite is described in the squeeze method.

  Moreover, as disclosed in Patent Document 2, it is known that it is effective to add about several hundred to 1,000 ppm of ascorbic acid during fruit crushing in order to prevent browning in apple juice production.

  On the other hand, as disclosed in Non-Patent Document 1, it is known that it is effective to add 3500 to 30000 ppm of ascorbic acid when producing polyphenol powder from wild apple fruit.

Japanese Patent No. 3521155 International Publication No. WO2002 / 022148

FFI Journal, No. 175, 49-69, 1998

  In the production of polyphenol as disclosed in Patent Document 1, by passing a clarified juice or a clarified extract through a synthetic adsorption resin packed in a column, the polyphenol fraction is adsorbed on the synthetic adsorption resin and then synthesized. The polyphenol fraction is eluted and collected from the adsorbent resin.

  Here, when the passage liquid of the column is used as a raw material for food and drink such as juice, the passage liquid can be effectively used without being discarded. That is, if it becomes possible to manufacture the raw material (passage liquid) of food-drinks, manufacturing polyphenol, it will become possible to use the apple used as a raw material without waste.

  In order to realize this, when the method disclosed in Patent Document 1 is used, since the raw material apple is limited to immature fruits, there is a problem that the procurement cost increases.

  Moreover, when using a sulfite as an antioxidant in a squeeze method, it is assumed that the usage-amount of sulfite increases, and there exists concern about manufacturing cost becoming high.

  Furthermore, when using the passing liquid for food and drinks, it is assumed that the upper limit of sulfite concentration in food and drinks is stipulated by the laws and regulations of each country. There is a problem that must be adapted to.

  On the other hand, as disclosed in Patent Document 2, when ascorbic acid is used as an antioxidant, it is considered that polyphenol powder itself can be obtained with a small addition amount of about several hundred to 1000 ppm. There is a concern that the procyanidin content in the polyphenol powder (one quality index as the polyphenol powder) is lowered.

  If the apple used as the raw material is only immature fruit, it can be expected that the desired procyanidin content can be realized, but if the apple mature fruit is also used as the raw material, a sufficient procyanidin content cannot be realized. There is concern.

  In addition, as disclosed in Non-Patent Document 1, when ascorbic acid is used as an antioxidant, it may be added at a high concentration of 1000 to 30000 ppm. There is a concern that, in extreme cases, it becomes unsuitable for drinking.

  Therefore, in view of the above problems, the present invention makes it possible to obtain a polyphenol powder having a sufficient procyanidin content while using mature fruits without limiting the fruits used as raw materials to immature fruits. The present invention proposes a novel technique for achieving both of the above, such as making it possible to use the passing liquid that passes through the adsorption resin as food and drink.

  The problem to be solved by the present invention is as described above. Next, means for solving the problem will be described.

That is, as described in claim 1,
From liquid ingredients derived from fruits or fruit juices,
Using antioxidants,
A polyphenol fraction;
Get food and drink or its ingredients,
A method of processing fruit or juice ,
An antioxidant addition step of adding ascorbic acid as an antioxidant to a liquid raw material derived from fruit or fruit juice;
An adsorption step for adsorbing the liquid raw material to which the antioxidant is added to the synthetic adsorption resin;
A passing liquid acquisition step for acquiring a passing liquid that has passed through the synthetic adsorption resin; and
An adsorbate acquisition step for acquiring a polyphenol fraction adsorbed on the synthetic adsorption resin;
A food and beverage product manufacturing step for manufacturing a food and beverage product or its raw material using the raw material passage liquid acquired by the passing liquid acquisition step, and
Including
The ascorbic acid is added to the liquid raw material so as to have a concentration of 1000 ppm or more and 30000 ppm or less,
In the adsorbate acquisition step, a step of obtaining a polyphenol solution by eluting the polyphenol fraction with an alcohol solution;
Removing the alcohol by condensing the polyphenol solution under reduced pressure to obtain a polyphenol liquid formulation;
Comprising at least
In the food and beverage product manufacturing step , the sourness is adjusted by carrying out a process of reducing the concentration of ascorbic acid so that the ascorbic acid in the food or beverage product or its raw material has a concentration of 500 ppm or less,
A method for processing fruit or fruit juice.

Moreover, as described in claim 2,
The procyanidin content in the total amount of polyphenols in the polyphenol liquid preparation is 14.5% or more.

Moreover, as described in claim 3,
The ascorbic acid is added to the liquid raw material so as to have a concentration of 2000 ppm or more and 5000 ppm or less,
The procyanidin content in the total amount of polyphenols in the polyphenol liquid preparation is 20% or more.

Moreover, as described in claim 4,
The treatment for reducing the concentration of ascorbic acid in the food and beverage product manufacturing step is performed by mixing another liquid having a lower concentration of ascorbic acid than the passing liquid.
I will do it.

Moreover, as described in claim 5,
From liquid ingredients derived from fruits or fruit juices,
Using antioxidants,
A polyphenol fraction;
Get food and drink or its ingredients,
A method of processing fruit or juice ,
An antioxidant addition step of adding sulfite as an antioxidant to the liquid raw material derived from fruit or fruit juice;
An adsorption step for adsorbing the liquid raw material to which the antioxidant is added to the synthetic adsorption resin;
A passing liquid acquisition step for acquiring a passing liquid that has passed through the synthetic adsorption resin; and
An adsorbate acquisition step for acquiring a polyphenol fraction adsorbed on the synthetic adsorption resin;
A food and beverage product manufacturing step for manufacturing a food and beverage product or its raw material using the raw material passage liquid acquired by the passing liquid acquisition step, and
Only including,
The sulfite is added to the liquid raw material so as to have a concentration of 1000 ppm or more and 3000 ppm or less ,
In the adsorbate acquisition step, a step of obtaining a polyphenol solution by eluting the polyphenol fraction with an alcohol solution;
Removing the alcohol by condensing the polyphenol solution under reduced pressure to obtain a polyphenol liquid formulation;
Comprising at least
In the food / beverage product manufacturing step, the concentration of sulfite suitable for drinking is set by performing a treatment for reducing the concentration of sulfite so that the sulfite in the food / beverage product or its raw material has a concentration of 30 ppm or less. to, the processing method of the fruit or fruit juice, characterized in that.

Moreover, as described in claim 6,
The procyanidin content in the total amount of polyphenols in the polyphenol liquid preparation is 20% or more.

Moreover, as described in claim 7,
It is assumed that the treatment for reducing the concentration of sulfite in the food and beverage product manufacturing step is performed by mixing another liquid having a lower concentration of sulfite than the passing liquid.

Further, as described in claim 8,
The raw material of the liquid raw material includes at least a mature fruit apple.

  According to the present invention, it is possible to obtain a polyphenol powder having a sufficient procyanidin content while using a mature fruit without limiting the fruit used as a raw material to an immature fruit, and further passing through a synthetic adsorption resin. Two things, such as making it possible to use the liquid as a food and drink, can be achieved.

The figure explaining the outline | summary of this invention.

  The present invention makes it possible to obtain a polyphenol powder having a sufficient procyanidin content while using mature fruits without limiting the fruits used as raw materials to immature fruits. This is a technique for making two things possible, such as making it possible to use as a food and drink.

FIG. 1 shows the concept of the present invention. As shown in FIG.
From liquid ingredients derived from fruits or fruit juices,
Using antioxidants,
A polyphenol fraction;
Get food and drink or its ingredients,
A method for processing fruit or fruit juice.

More specifically,
An antioxidant addition step of adding an antioxidant to the fruit-derived or fruit-derived liquid raw material;
An adsorption step for adsorbing the liquid raw material to which the antioxidant is added to the synthetic adsorption resin;
A passing liquid acquisition step for acquiring a passing liquid that has passed through the synthetic adsorption resin; and
An adsorbate acquisition step for acquiring a polyphenol fraction adsorbed on the synthetic adsorption resin;
A food and beverage product manufacturing step for manufacturing a food and beverage product or its raw material using the raw material passage liquid acquired by the passing liquid acquisition step, and
A method for processing fruit or fruit juice containing

  As the fruit, it is possible to use edible fruits such as apples, pears and peaches. Among these, for example, when using an apple, use the mature fruit of the apple alone, use the immature fruit of the apple alone, use it without distinguishing the mature fruit of the apple from the immature fruit That is possible. In addition, an immature fruit means the fruit which fruited on the bunch after pollination was intentionally picked (tickled) in an immature stage.

  The liquid raw material can be obtained by crushing and squeezing fruit or by obtaining already purified fruit juice.

  The antioxidant is appropriately added at the time of crushing and / or squeezing, or added to already purified fruit juice.

  As an antioxidant, it is possible to use ascorbic acid (common name: vitamin C) or sulfite (potassium pyrosulfite, potassium metabisulfite, etc.). In addition, an antioxidant is mainly added in order to achieve the effect which acquires a polyphenol effectively, and the browning prevention effect.

  When ascorbic acid is used as an antioxidant, it is added to the liquid raw material so as to have a concentration of 1000 ppm or more and 30000 ppm or less, and preferably 2000 ppm or more and 5000 ppm or less.

  When sulfite is used as an antioxidant, the liquid raw material has a concentration of 1000 ppm or more and 3000 ppm or less.

  By passing the liquid raw material to which the antioxidant is added as described above through the column filled with the synthetic adsorption resin, the polyphenol fraction in the liquid raw material is adsorbed on the synthetic adsorption resin.

  As the synthetic adsorption resin, an adsorbent capable of selectively adsorbing and eluting polyphenols is used. For example, it is conceivable to use a synthetic adsorption resin based on styrene-divinylbenzene, an anion exchange resin, octadecyl group chemically bonded silica gel (ODS), or the like. The polyphenol fraction is adsorbed by passing the liquid raw material through a column packed with these synthetic adsorption resins (adsorption step).

  In addition, the passing liquid that has passed through the column is transported to a subsequent process through a predetermined container or pipeline, and is used as a food or drink such as apple juice or a raw material thereof (passing through). Liquid acquisition step).

  In addition, after passing the liquid raw material, the polyphenol fraction adsorbed on the synthetic adsorption resin is acquired (adsorbent acquisition step). Specifically, after washing by passing water through the column, a polyphenol fraction is eluted and recovered by passing a 10 to 100% alcohol (for example, ethanol) solution, preferably about 50% alcohol solution, through the column to obtain a polyphenol. Obtain a solution.

  A fruit polyphenol liquid preparation is obtained by concentrating the polyphenol solution under reduced pressure and distilling off the alcohol. An organic acid such as malic acid or a fatty acid ester may be added to the fruit polyphenol liquid preparation. Furthermore, a liquid polyphenol powder formulation can be obtained by directly applying the liquid formulation or adding a powder auxiliary such as dextrin and performing spray drying or freeze drying.

  In the case of using a liquid raw material made from apple, the obtained fruit polyphenol includes caffeic acid derivatives, p-coumaric acid derivatives, flavan-3-ols (catechins), flavonols (quercetin) as simple polyphenol compounds. Glycosides), dihydrochalcones (phloretin glycosides) and the like, and some or all of procyanidins (condensed tannins) and the like are assumed to be included as high molecular polyphenol compounds.

  In particular, as a preferred embodiment, the procyanidin content (one quality index as polyphenol powder) in the total amount of polyphenol in the polyphenol liquid preparation is 20% or more.

  Moreover, the above-mentioned passage liquid is used in food or drink or as a raw material thereof. For example, it is conceivable to be used as an apple juice to be drunk, as a raw material thereof, or as an additive for foods containing apples (food and beverage product manufacturing step).

  Here, in particular, when producing ascorbic acid as an antioxidant in a food or drink such as apple juice, ascorbic acid in the food or drink or its raw material has a concentration of 500 ppm or less. It is preferable to carry out a treatment for reducing the acid concentration. This is because high acidity of ascorbic acid increases the acidity, thereby reducing the commercial value and, in extreme cases, it may be unsuitable for drinking.

  As a specific index, in the case of apple juice, the concentration of ascorbic acid in the product is preferably 500 ppm or less.

  Moreover, the process which reduces the density | concentration of ascorbic acid can mix the other liquid whose density | concentration of ascorbic acid is lower than a passage liquid. Other liquids include, for example, liquid raw materials to which ascorbic acid is not added, liquid raw materials having a concentration lower than that of the passing liquid while adding ascorbic acid, liquids derived from other fruits, carbonated water, water, etc. Conceivable. In short, the concentration of ascorbic acid in the food or drink or its raw material is diluted with another liquid.

  By adjusting the concentration of ascorbic acid by the thinning operation as described above, it is possible to easily achieve a desired concentration of ascorbic acid in the food or drink or the raw material. In addition, it is good also as reducing the density | concentration of ascorbic acid using the synthetic | combination adsorption resin which adsorbs and removes ascorbic acid other than by the prescription to dilute.

  On the other hand, particularly when sulfite is used as an antioxidant in the production of food and drink such as apple juice, the sulfite is adjusted so that the concentration of sulfite in the food and drink or its raw material is 30 ppm or less. It is preferable to carry out a treatment for lowering the concentration of. This is because there is a concern that the inclusion of a high concentration of sulfite makes it unfit for drinking (does not comply with legal restrictions).

  As a specific index, in the case of apple juice, the concentration of sulfite in the product is preferably 30 ppm or less.

  Moreover, the process which reduces the density | concentration of a sulfite can consider mixing the other liquid whose density | concentration of a sulfite is lower than a passage liquid. Other liquids include, for example, liquid raw materials to which sulfite is not added, liquid raw materials having a concentration lower than that of the passing liquid while sulfites are added, liquids derived from other fruits, carbonated water, water, and the like. Conceivable. In short, the concentration of sulfite in food or drink or its raw material is diluted with other liquids.

  By adjusting the sulfite concentration by the thinning operation in this way, it is possible to easily achieve a desired concentration of sulfite in the food or drink or its raw material. In addition, it is good also as reducing the density | concentration of a sulfite using the synthetic | combination adsorption resin which adsorbs and removes a sulfite other than the prescription to dilute like this.

<Test using ascorbic acid as an antioxidant>
A commercially available apple (variety: Fuji) was squeezed and ascorbic acid was added to the squeezed liquid so that the concentrations shown in Samples 1 to 5 in Table 1 were obtained.

<Polyphenol>
The polyphenol solution eluted from the synthetic adsorption resin was freeze-dried to obtain a polyphenol powder. The ratio (wt%) of the total procyanidin amount (procyanidin fraction) contained in the total polyphenol amount (polyphenol fraction) in the obtained polyphenol powder is as shown in Table 1 after storage at room temperature for 1 day and after storage at room temperature for 2 days. It became concentration.
As shown in Samples 1 to 5, it was confirmed that a high total procyanidin amount was obtained when the concentration of ascorbic acid was in the range of 1000 ppm to 5000 ppm. Even when the concentration of ascorbic acid was the lowest, 1000 ppm, it was confirmed that the procyanidin content could be increased to about 20% or more when stored at room temperature for one day.
In particular, by setting the concentration of ascorbic acid to 2000 ppm or more, it was confirmed that the procyanidin content in the total amount of polyphenols could be maintained at 20% or more even when the fruit juice was stored at room temperature for 2 days.

<Sensory test for food and drink>
First, apple raw material concentrated fruit juice was diluted 5 times to obtain concentrated reduced straight fruit juice, which was used as a control fruit juice (Brix14.4).
On the other hand, ascorbic acid is added so that the concentration in the fruit juice becomes 5000 ppm, the fruit of mature apple (variety: Fuji) is squeezed, centrifuged at 3000 RPM for 10 minutes, and then the supernatant is initialized Sep-pak Vac C18 30 mL was passed through the column (manufactured by Waters).
Of the liquid passing through the column, the first 10 mL was discarded, and the remaining approximately 20 mL was recovered to obtain an apple juice column passing liquid.
This passing liquid was diluted 10 times (test product 1) and 20 times (test product 2) with the concentrated reduced straight fruit juice and subjected to sensory evaluation.

In the sensory evaluation, a method was used in which six panelists were first provided with the control fruit juice, and then two test products were provided in order to ask whether there was a problem with the acidity.
The Brix of the apple juice column passage liquid was 13.3.
The results of sensory evaluation are as shown in Table 2 below, and it was confirmed that there was no problem with acidity by this method.

<Examination>
As described above, it is possible to obtain a polyphenol powder having a sufficient procyanidin content while using mature fruits without limiting the fruits used as raw materials to immature fruits, and further, a passing liquid that passes through a synthetic adsorption resin. It has been confirmed that it is possible to achieve both of the above, such as making it possible to use as a food and drink.

  In addition, about the liquid raw material, it decided to use only a mature fruit, However, An immature fruit may be contained. It is clear from the contents disclosed in the above-mentioned Patent Document 1 that a high total amount of procyanidins can be obtained for polyphenols even by using immature fruits.

<Example of using sulfite as an antioxidant>
The fruit juice of apple was crushed to obtain juice juice.
Potassium pyrosulfite was added as an antioxidant during crushing.
The amount of potassium pyrosulfite added was the concentration shown in Sample 6 of Table 1.

<Polyphenol>
The juice was purified with a synthetic adsorption resin (Sep-pak Vac C18, manufactured by Waters), and the total procyanidin content (% by weight) contained in the powder obtained by freeze-drying the eluate was measured. The results were as shown in Table 1 after storage at room temperature for 1 day and after storage at room temperature for 2 days.
As shown in Sample 6, when the concentration of potassium pyrosulfite was 1000 ppm, it was confirmed that a high total procyanidin amount was obtained, and it was confirmed that the procyanidin content could be increased to 20% or more.

<Eating and drinking supplies>
A food and drink is obtained by diluting the concentration of sulfite to be equal to or lower than the regulation value using the passing liquid in the case of using Sample 6.

<Examination>
As described above, it is possible to obtain a polyphenol powder having a sufficient procyanidin content while using mature fruits without limiting the fruits used as raw materials to immature fruits, and further, a passing liquid that passes through a synthetic adsorption resin. It has been confirmed that it is possible to achieve both of the above, such as making it possible to use as a food and drink.

  In addition, about the liquid raw material, it decided to use only a mature fruit, However, An immature fruit may be contained. It is clear from the contents disclosed in the above-mentioned Patent Document 1 that a high total amount of procyanidins can be obtained for polyphenols even by using immature fruits.

  The present invention makes it possible to obtain a polyphenol powder having a sufficient procyanidin content while using mature fruits without limiting the fruits used as raw materials to immature fruits. It can be used as a technology that makes it possible to achieve both of the above, such as making it possible to use as a food and drink. As the fruit, it is possible to use edible fruits such as apples, pears and peaches.

Claims (8)

From liquid ingredients derived from fruits or fruit juices,
Using antioxidants,
A polyphenol fraction;
Get food and drink or its ingredients,
A method of processing fruit or juice ,
An antioxidant addition step of adding ascorbic acid as an antioxidant to a liquid raw material derived from fruit or fruit juice;
An adsorption step for adsorbing the liquid raw material to which the antioxidant is added to the synthetic adsorption resin;
A passing liquid acquisition step for acquiring a passing liquid that has passed through the synthetic adsorption resin; and
An adsorbate acquisition step for acquiring a polyphenol fraction adsorbed on the synthetic adsorption resin;
A food and beverage product manufacturing step for manufacturing a food and beverage product or its raw material using the raw material passage liquid acquired by the passing liquid acquisition step, and
Including
The ascorbic acid is added to the liquid raw material so as to have a concentration of 1000 ppm or more and 30000 ppm or less,
In the adsorbate acquisition step, a step of obtaining a polyphenol solution by eluting the polyphenol fraction with an alcohol solution;
Removing the alcohol by condensing the polyphenol solution under reduced pressure to obtain a polyphenol liquid formulation;
Comprising at least
In the food and beverage product manufacturing step , the sourness is adjusted by carrying out a process of reducing the concentration of ascorbic acid so that the ascorbic acid in the food or beverage product or its raw material has a concentration of 500 ppm or less,
Processing method of fruit or fruit juice. The procyanidin content in the total amount of polyphenols in the polyphenol liquid formulation is 14.5% or more,
The processing method of the fruit or fruit juice of Claim 1 characterized by the above-mentioned. The ascorbic acid is added to the liquid raw material so as to have a concentration of 2000 ppm or more and 5000 ppm or less,
The procyanidin content in the total amount of polyphenol in the polyphenol liquid preparation is 20% or more,
The processing method of the fruit or fruit juice of Claim 1 characterized by the above-mentioned. The treatment for reducing the concentration of ascorbic acid in the food and beverage product manufacturing step is performed by mixing another liquid having a lower concentration of ascorbic acid than the passing liquid.
The processing method of the fruit or fruit juice of Claim 2 or Claim 3 characterized by the above-mentioned. From liquid ingredients derived from fruits or fruit juices,
Using antioxidants,
A polyphenol fraction;
Get food and drink or its ingredients,
A method of processing fruit or juice ,
An antioxidant addition step of adding sulfite as an antioxidant to the liquid raw material derived from fruit or fruit juice;
An adsorption step for adsorbing the liquid raw material to which the antioxidant is added to the synthetic adsorption resin;
A passing liquid acquisition step for acquiring a passing liquid that has passed through the synthetic adsorption resin; and
An adsorbate acquisition step for acquiring a polyphenol fraction adsorbed on the synthetic adsorption resin;
A food and beverage product manufacturing step for manufacturing a food and beverage product or its raw material using the raw material passage liquid acquired by the passing liquid acquisition step, and
Only including,
The sulfite is added to the liquid raw material so as to have a concentration of 1000 ppm or more and 3000 ppm or less ,
In the adsorbate acquisition step, a step of obtaining a polyphenol solution by eluting the polyphenol fraction with an alcohol solution;
Removing the alcohol by condensing the polyphenol solution under reduced pressure to obtain a polyphenol liquid formulation;
Comprising at least
In the food / beverage product manufacturing step, the concentration of sulfite suitable for drinking is set by performing a treatment for reducing the concentration of sulfite so that the sulfite in the food / beverage product or its raw material has a concentration of 30 ppm or less. To
A method for processing a fruit or fruit juice. The procyanidin content in the total amount of polyphenol in the polyphenol liquid preparation is 20% or more,
The processing method of the fruit or fruit juice of Claim 5 characterized by the above-mentioned. The treatment for reducing the concentration of sulfite in the food and beverage product manufacturing step is performed by mixing another liquid having a lower concentration of sulfite than the passing liquid.
The processing method of the fruit or fruit juice of Claim 6 characterized by the above-mentioned. The raw material of the liquid raw material includes at least an apple of a mature fruit,
The processing method of the fruit or fruit juice as described in any one of Claims 1 thru | or 7 characterized by the above-mentioned.

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